Wiener's cybernetics (1948)

Norbert Wiener, The Extrapolation, Interpolation, and Smoothing of Stationary Time Series, NDRC Report, MIT, February 1942. Classified (ordered by Warren Weaver, then the head of Section D-2), printed in 300 copies. Nicknamed "Yellow Peril". Published in 1949 (see below). Shannon 1948 mentions it as containing "the first clear-cut formulation of communication theory as a statistical problem, the study of operations on time series. This work, although chiefly concerned with the linear prediction and filtering problem, is an important collateral reference in connection with the present paper" (p 626-7). [1], Commentary.

Norbert Wiener, Cybernetics: or Control and Communication in the Animal and the Machine, Paris: Hermann & Cie, 1948; Cambridge, MA: Technology Press, 1948; New York: John Wiley & Sons, 1948, 194 pp; 2nd ed., MIT Press and Wiley, 1961, 212 pp; 1965, PDF; 1980. Reviews: Dubarle (1948, FR), Littauer (1949), MacColl (1950). In the spring of 1947, Wiener was invited to a congress on harmonic analysis, held in Nancy, France and organized by the bourbakist mathematician, Szolem Mandelbrojt. During this stay in France Wiener received the offer to write a manuscript on the unifying character of this part of applied mathematics, which is found in the study of Brownian motion and in telecommunication engineering. The following summer, back in the United States, Wiener decided to introduce the neologism ‘cybernetics’ into his scientific theory. According to Pierre De Latil, MIT Press tried their best to prevent the publication of the book in France, since Wiener, then professor at MIT, was bound to them by contract. As a representative of Hermann Editions, M. Freymann managed to find a compromise and the French publisher won the rights to the book. Having lived together in Mexico, Freymann and Wiener were friends and it is Freymann who is supposed to have suggested that Wiener write this book. Benoît Mandelbrot and Walter Pitts proofread the manuscript. [2]

Colloques Internationaux du Centre National de la Recherche Scientifique 47 (1953). (French). Proceedings of a congress held in Paris in January 1951. Paul Chauchard: the congress was "the first manifestation in France of the young cybernetics, with the participation of N. Wiener, the father of this science." For this congress, organised by the French scientists Louis Couffignal and Pérès, both of whom had visited the U.S. laboratories, and sponsored by the Rockefeller Foundation, a number of foreigners were invited, including Howard Aiken, Warren McCulloch, Maurice Wilkes, Grey Walter, Donald MacKay and Ross Ashby, along with Wiener who was staying in Paris for a couple of months at the Collège de France. 300 people attended; 38 papers were presented; 14 machines from six different countries were demonstrated. [9]

Benoît Mandelbrot, Contributions à la théorie mathématique des jeux de communications, Institut de Statistiques de l'Université de Paris 2, 1953. (French). Ph.D. dissertation in mathematics making a connection between game theory and information theory. He showed for instance that both thermodynamics and statistical structures of language can be explained as results of minimax games between ‘nature’ and ‘emitter’. He also made the connection between the definitions of information given by the British statistician Ronald A. Fisher in the 1920s, by the physicist Dennis Gabor in 1946 and the already well-known definition proposed by Shannon. Mandelbrot was at MIT from 1952-1954 and later at the IAS in Princeton. [10]

Aleksei Liapunov, Anatolii Kitov, Sergei Sobolev, "Osnovnye cherty kibernetiki" [Основные черты кибернетики; Basic Features of Cybernetics], Voprosy filosofii [Вопросы философии; Problems of Philosophy] 141:4 (August 1955). (Russian). The first Soviet article speaking positively about cybernetics and non-technical applications of information theory, authored by three specialists in military computing—Liapunov, a noted mathematician and the creator of the first Soviet programming language; Kitov, an organizer of the first military computing centers; and Sobolev, the deputy head of the Soviet nuclear weapons program in charge of the mathematical support. They presented cybernetics as a general "doctrine of information", of which Shannon’s theory of communication was but one part. The three authors interpreted the notion of information very broadly, defining it as "all sorts of external data, which can be received and transmitted by a system, as well as the data that can be produced within the system." Under the rubric of "information" fell any environmental influence on living organisms, any knowledge acquired by man in the process of learning, any signals received by a control device via feedback, and any data processed by a computer. [12][13]

Céline Lafontaine, "The Cybernetic Matrix of 'French Theory'", Theory, Culture & Society 24:5 (2007), pp 27-46. On the influence of cybernetics on the development of French structuralism, post-structuralism and postmodern philosophy after WWII.

In other fields

Donna Haraway, "Signs of Dominance: From a Physiology to a Cybernetics of Primate Society, C.R. Carpenter, 1930-1970", in Studies in History of Biology, Vol. 6, eds. William Coleman and Camille Limoges, Johns Hopkins University Press, 1982, pp 129-219.

Indirectly related prior work

Marian Smoluchowski, "Experimentell nachweisbare, der Ublichen Thermodynamik widersprechende Molekularphenomene", Phys. Zeitshur. 13, 1912. Connecting the problem of Maxwell's Demon with that of Brownian motion, Smoluchowski wrote that in order to violate the second principle of thermodynamics, the Demon had to be "taught" [unterrichtet] regarding the speed of molecules. Wiener mentions him in passing in his Cybernetics (1948) [23].